Danfoss VLT AutomationDrive FC 301 Programming Guide

Contents

1. Introduction

3

Approvals 3

Symbols 3

Abbreviations 4

Definitions 4

Electrical wiring - control cables 10

2. How to Programme

13

The Graphical and Numerical Local Control Panels 13

How to Programme on the Graphical LCP 13

The LCD-Display 14

Display Mode 17

Display Mode - Selection of Read-Outs 17

Parameter Set-Up 18

Quick Menu Key Functions 18

Main Menu Mode 21

Parameter Selection 21

Infinitely Variable Change of Numeric Data Value 23

Read-out and Programming of Indexed Parameters 23

How to Programme on the Numerical Local Control Panel 24

Local Control Keys 25

Initialisation to Default Settings 26

3. Parameter descriptions

27

Parameters: Operation and Display 28

Parameters: Load and Motor 41

Parameters: Brakes 57

Parameters: Reference/Ramps 63

Parameters: Limits/Warnings 76

Parameters: Digital In/Out 82

Parameters: Analog In/Out 95

Parameters: Controllers 103

Parameters: Communications and Options 108

Parameters: Profibus 114

Parameters: DeviceNet CAN Fieldbus 124

Parameters: Smart Logic Control 130

Parameters: Special Functions 145

Parameters: Drive Information 153

Parameters: Data Read-outs 160

Parameters: Encoder Input 167

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4. Parameter lists

171

Parameter Lists 171

5. Troubleshooting

197

Warnings/Alarm Messages 197

Index

204

Contents FC 300 Programming Guide

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1. Introduction

FC 300

Programming Guide

Software version: 4.9x

This Programming Guide can be used for all FC 300 frequency converters with software version 4.9x.

The software version number can be seen from parameter 15-43.

1.1.1. Approvals

1.1.2. Symbols

Symbols used in this guide.

NB!

Indicates something to be noted by the reader.

Indicates a general warning.

Indicates a high-voltage warning.

* Indicates default setting

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1.1.3. Abbreviations

Alternating current AC

American wire gauge AWG

Ampere/AMP A

Automatic Motor Adaptation AMA

Current limit I

LIM

Degrees Celsius °C

Direct current DC

Drive Dependent D-TYPE

Electro Magnetic Compatibility EMC

Electronic Thermal Relay ETR

drive FC

Gram g

Hertz Hz

Kilohertz kHz

Local Control Panel LCP

Meter m

Millihenry Inductance mH

Milliampere mA

Millisecond ms

Minute min

Motion Control Tool MCT

Nanofarad nF

Newton Meters Nm

Nominal motor current I

M,N

Nominal motor frequency f

M,N

Nominal motor power P

M,N

Nominal motor voltage U

M,N

Parameter par.

Protective Extra Low Voltage PELV

Printed Circuit Board PCB

Rated Inverter Output Current I

INV

Revolutions Per Minute RPM

Regenerative terminals Regen

Second s

Synchronous Motor Speed n

s

Torque limit T

LIM

Volts V

1.1.4. Definitions

Frequency converter:

D-TYPE

Size and type of the connected frequency converter (dependencies).

I

VLT,MAX

The maximum output current.

I

VLT,N

The rated output current supplied by the frequency converter.

U

VLT, MAX

The maximum output voltage.

Input:

Control command

You can start and stop the connected motor by means of LCP and the

digital inputs.

Functions are divided into two groups.

Functions in group 1 have higher priority than functions in group 2.

Group 1 Reset, Coasting stop, Reset and Coast-

ing stop, Quick-stop, DC braking, Stop

and the "Off" key.

Group 2 Start, Pulse start, Reversing, Start re-

versing, Jog and Freeze output

Motor:

f

JOG

The motor frequency when the jog function is activated (via digital terminals).

f

M

The motor frequency.

f

MAX

The maximum motor frequency.

f

MIN

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The minimum motor frequency.

f

M,N

The rated motor frequency (nameplate data).

I

M

The motor current.

I

M,N

The rated motor current (nameplate data).

M-TYPE

Size and type of the connected motor (dependencies).

n

M,N

The rated motor speed (nameplate data).

n

s

Synchronous motor speed

n

s

=

2×

par

.1− 23 × 60

s

par

.1− 39

P

M,N

The rated motor power (nameplate data).

T

M,N

The rated torque (motor).

U

M

The instantaneous motor voltage.

U

M,N

The rated motor voltage (nameplate data).

Break-away torque

η

VLT

The efficiency of the frequency converter is defined as the ratio between the power output and the power input.

Start-disable command

A stop command belonging to the group 1 control commands - see this group.

Stop command

See Control commands.

References:

Analog Reference

A signal transmitted to the analog inputs 53 or 54, can be voltage or current.

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Binary Reference

A signal transmitted to the serial communication port.

Preset Reference

A defined preset reference to be set from -100% to +100% of the reference range. Selection of eight preset references via the digital terminals.

Pulse Reference

A pulse frequency signal transmitted to the digital inputs (terminal 29 or 33).

Ref

MAX

Determines the relationship between the reference input at 100% full scale value (typically 10 V, 20mA) and the resulting reference. The maximum

reference value set in par. 3-03.

Ref

MIN

Determines the relationship between the reference input at 0% value (typically 0V, 0mA, 4mA) and the resulting reference. The minimum reference value

set in par. 3-02.

Miscellaneous:

Analog Inputs

The analog inputs are used for controlling various functions of the frequency converter.

There are two types of analog inputs:

Current input, 0-20 mA and 4-20 mA

Voltage input, 0-10 V DC (FC 301)

Voltage input, -10 - +10 V DC (FC 302).

Analog Outputs

The analog outputs can supply a signal of 0-20 mA, 4-20 mA.

Automatic Motor Adaptation, AMA

AMA algorithm determines the electrical parameters for the connected motor at standstill.

Brake Resistor

The brake resistor is a module capable of absorbing the brake power generated in regenerative braking. This regenerative braking power increases the

intermediate circuit voltage and a brake chopper ensures that the power is transmitted to the brake resistor.

CT Characteristics

Constant torque characteristics used for all applications such as conveyor belts, displacement pumps and cranes.

Digital Inputs

The digital inputs can be used for controlling various functions of the frequency converter.

Digital Outputs

The frequency converter features two Solid State outputs that can supply a 24 V DC (max. 40 mA) signal.

DSP

Digital Signal Processor.

ETR

Electronic Thermal Relay is a thermal load calculation based on present load and time. Its purpose is to estimate the motor temperature.

Hiperface

®

Hiperface

®

is a registered trademark by Stegmann.

Initialising

If initialising is carried out (par. 14-22), the frequency converter returns to the default setting.

Intermittent Duty C ycle

An intermittent duty rating refers to a sequence of duty cycles. Each cycle consists of an on-load and an off-load period. The operation can be either

periodic duty or non-periodic duty.

LCP

The Local Control Panel (LCP) makes up a complete interface for control and programming of the frequency converter. The control panel is detachable

and can be installed up to 3 metres from the frequency converter, i.e. in a front panel by means of the installation kit option.

lsb

Least significant bit.

msb

Most significant bit.

MCM

Short for Mille Circular Mil, an American measuring unit for cable cross-section. 1 MCM = 0.5067 mm

2

.

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On-line/Off-line Parameters

Changes to on-line parameters are activated immediately after the data value is changed. Changes to off-line parameters are not activated until you enter

[OK] on the LCP.

Process PID

The PID regulator maintains the desired speed, pressure, temperature, etc. by adjusting the output frequency to match the varying load.

Pulse Input/Incremental Encoder

An external, digital pulse transmitter used for feeding back information on motor speed. The encoder is used in applications where great accuracy in

speed control is required.

RCD

Residual Current Device.

Set-up

You can save parameter settings in four Set-ups. Change between the four parameter Set-ups and edit one Set-up, while another Set-up is active.

SFAVM

Switching pattern called

Stator Flux oriented Asynchronous Vector Modulation (par. 14-00).

Slip Compensation

The frequency converter compensates for the motor slip by giving the frequency a supplement that follows the measured motor load keeping the motor

speed almost constant..

Smart Logic Control (SLC)

The SLC is a sequence of user defined actions executed when the associated user defined events are evaluated as true by the SLC. (Parameter group

13-xx).

FC Standard Bus

Includes RS 485 bus with FC protocol or MC protocol. See parameter 8-30.

Thermistor:

A temperature-dependent resistor placed where the temperature is to be monitored (frequency converter or motor).

Trip

A state entered in fault situations, e.g. if the frequency converter is subject to an over-temperature or when the frequency converter is protecting the

motor, process or mechanism. Restart is prevented until the cause of the fault has disappeared and the trip state is cancelled by activating reset or, in

some cases, by being programmed to reset automatically. Trip may not be used for personal safety.

Trip Locked

A state entered in fault situations when the frequency converter is protecting itself and requiring physical intervention, e.g. if the frequency converter is

subject to a short circuit on the output. A locked trip can only be cancelled by cutting off mains, removing the cause of the fault, and reconnecting the

frequency converter. Restart is prevented until the trip state is cancelled by activating reset or, in some cases, by being programmed to reset automatically.

Trip may not be used for personal safety.

VT Characteristics

Variable torque characteristics used for pumps and fans.

VVCplus

If compared with standard voltage/frequency ratio control, Voltage Vector Control (VVC

plus

) improves the dynamics and the stability, both when the speed

reference is changed and in relation to the load torque.

60° AVM

Switching pattern called 60°

Asynchronous Vector Modulation (par. 14-00).

Power Factor

The power factor is the relation between I

1

and I

RMS

.

Power factor

=

3

xU xI

1

cos

ϕ

3

xU xI

RMS

The power factor for 3-phase control:

=

I

1

xcos

ϕ1

I

RMS

=

I

1

I

RMS

since cos

ϕ1=1

The power factor indicates to which extent the frequency converter im-

poses a load on the mains supply.

The lower the power factor, the higher the I

RMS

for the same kW per-

formance.

I

RMS

=

I

1

2

+

I

5

2

+

I

7

2

+.. +

I

n

2

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In addition, a high power factor indicates that the different harmonic currents are low.

The frequency converters' built-in DC coils produce a high power factor, which minimizes the imposed load on the mains supply.

The voltage of the frequency converter is dangerous whenever connected to mains. Incorrect installation of the motor, frequency

converter or fieldbus may cause damage to the equipment, serious personal injury or death. Consequently, the instructions in this

manual, as well as national and local rules and safety regulations, must be complied with.

Safety Regulations

1. The mains supply to the frequency converter must be disconnected whenever repair work is to be carried out. Check that the mains supply has

been disconnected and that the necessary time has elapsed before removing motor and mains supply plugs.

2. The [OFF] button on the control panel of the frequency converter does not disconnect the mains supply and consequently it must not be used

as a safety switch.

3. The equipment must be properly earthed, the user must be protected against supply voltage and the motor must be protected against overload

in accordance with applicable national and local regulations.

4. The earth leakage current exceeds 3.5 mA.

5. Protection against motor overload is not included in the factory setting. If this function is desired, set par.

1-90 Motor Thermal Protection

to

data value ETR trip 1 [4] or data value ETR warning 1 [3].

6. Do not remove the plugs for the motor and mains supply while the frequency converter is connected to mains. Check that the mains supply has

been disconnected and that the necessary time has elapsed before removing motor and mains plugs.

7. Please note that the frequency converter has more voltage sources than L1, L2 and L3, when load sharing (linking of DC intermediate circuit)

or external 24 V DC are installed. Check that all voltage sources have been disconnected and that the necessary time has elapsed before

commencing repair work.

Warning against unintended start

1. The motor can be brought to a stop by means of digital commands, bus commands, references or a local stop, while the frequency converter

is connected to mains. If personal safety considerations (e.g. risk of personal injury caused by contact with moving machine parts following an

unintentional start) make it necessary to ensure that no unintended start occurs, these stop functions are not sufficient. In such cases the mains

supply must be disconnected or the

Safe Stop

function must be activated.

2. The motor may start while setting the parameters. If this means that personal safety may be compromised (e.g. personal injury caused by

contact with moving machine parts), motor starting must be prevented, for instance by use of the

Safe Stop

function or secure disconnection

of the motor connection.

3. A motor that has been stopped with the mains supply connected, may start if faults occur in the electronics of the frequency converter, through

temporary overload or if a fault in the power supply grid or motor connection is remedied. If unintended start must be prevented for personal

safety reasons (e.g. risk of injury caused by contact with moving machine parts), the normal stop functions of the frequency converter are not

sufficient. In such cases the mains supply must be disconnected or the

Safe Stop

function must be activated.

NB!

When using the

Safe Stop

function, always follow the instructions in the

Safe Stop

section.

4. Control signals from, or internally within, the frequency converter may in rare cases be activated in error, be delayed or fail to occur entirely.

When used in situations where safety is critical, e.g. when controlling the electromagnetic brake function of a hoist application, these control

signals must not be relied on exclusively.

Touching the electrical parts may be fatal - even after the equipment has been disconnected from mains.

Also make sure that other voltage inputs have been disconnected, such as external 24 V DC, load sharing (linkage of DC intermediate circuit), as well as

the motor connection for kinetic back up.

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Systems where frequency converters are installed must, if necessary, be equipped with additional monitoring and protective devices according to the

valid safety regulations, e.g law on mechanical tools, regulations for the prevention of accidents etc. Modifications on the frequency converters by means

of the operating software are allowed.

Hoisting applications:

FC functions for controlling mechanical rakes cannot be considered as a primary safety circuit. There must always be a redundancy for controlling external

brakes.

Protection Mode

Once a hardware limit on motor current or dc-link voltage is exceeded the drive will enter “Protection mode”. “Protection mode” means a change of the

PWM modulation strategy and a low switching frequency to minimize losses. This continues 10 sec after the last fault and increases the reliability and

the robustness of the drive while re-establishing full control of the motor.

In hoist applications “Protection mode” is not usable because the drive will usually not be able to leave this mode again and therefore it will extend the

time before activating the brake – which is not recommendable.

The “Protection mode” can be disabled by setting parameter 14-26 “Trip Delay at Inverter Fault” to zero which means that the drive will trip immediately

if one of the hardware limits is exceeded.

NB!

It is recommended to disable protection mode in hoisting applications (par. 14-26 = 0)

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1.1.5. Electrical wiring - control cables

Illustration 1.1: Diagram showing all electrical terminals without options.

Terminal 37 is the input to be used for Safe Stop. For instructions on Safe Stop installation please refer to the section

Safe Stop Installation

of the

Design Guide.

* Terminal 37 is not included in FC 301 (Except FC 301 A1, which includes Safe Stop).

Terminal 29 and Relay 2, are not included in FC 301.

Very long control cables and analogue signals may in rare cases and depending on installation result in 50/60 Hz earth loops due to noise from mains

supply cables.

If this occurs, it may be necessary to break the screen or insert a 100 nF capacitor between screen and chassis.

The digital and analogue in- and outputs must be connected separately to the common inputs (terminal 20, 55, 39) of the frequency converter to avoid

ground currents from both groups to affect other groups. For example, switching on the digital input may disturb the analog input signal.

Input polarity of control terminals

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NB!

Control cables must be screened/armoured.

See section entitled

Earthing of Screened/Armoured Control Cables

for

the correct termination of control cables.

130BA681.10

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2. How to Programme FC 300 Programming Guide

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2. How to Programme

2.1. The Graphical and Numerical Local Control Panels

The easiest programming of the frequency converter is performed by the Graphical Local Control Panel (LCP 102). It is necessary to consult the frequency

converter Design Guide, when using the Numeric Local Control Panel (LCP 101).

2.1.1. How to Programme on the Graphical LCP

The following instructions are valid for the graphical LCP (LCP 102):

The control panel is divided into four functional groups:

1. Graphical display with Status lines.

2. Menu keys and indicator lights - changing parameters and

switching between display functions.

3. Navigation keys and indicator lights (LEDs).

4. Operation keys and indicator lights (LEDs).

All data is displayed in a graphical LCP display, which can show up to five

items of operating data while displaying [Status].

Display lines:

a. Status line: Status messages displaying icons and graphic.1

b. Line 1-2: Operator data lines displaying data defined or chosen

by the user. By pressing the [Status] key, up to one extra line

can be added.1

c. Status line: Status messages displaying text.1

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2.1.2. The LCD-Display

The LCD-display has back light and a total of 6 alpha-numeric lines. The display lines show the direction of rotation (arrow), the chosen Set-up as well

as the programming Set-up. The display is divided into 3 sections:

Top section shows up to 2 measurements in normal operating status.

The top line in the Middle section shows up to 5 measurements with

related unit, regardless of status (except in the case of alarm/warning).

Bottom section always shows the state of the frequency converter in

Status mode.

130BP074.10

Top section

Middle section

Bottom section

The Active Set-up (selected as the Active Set-up in par. 0-10) is shown. When programming another Set-up than the Active Set-up, the number of the

programmed Set-up appears to the right.

Display Contrast Adjustment

Press [status] and [

▲

] for darker display

Press [status] and [

▼

] for brighter display

Most parameter set-ups can be changed immediately via the control panel, unless a password has been created via par. 0-60

Main Menu Password

or

via par. 0-65

Quick Menu Password

.

Indicator lights (LEDs):

If certain threshold values are exceeded, the alarm and/or warning LED lights up. A status and alarm text appear on the control panel.

The ON LED is activated when the frequency converter receives mains voltage or via a DC bus terminal or 24 V external supply. At the same time, the

back light is on.

• Green LED/On: Control section is working.

• Yellow LED/Warn.: Indicates a warning.

• Flashing Red LED/Alarm: Indicates an alarm.

130BP040.10

LCP keys

The control keys are divided into functions. The keys below the display

and indicator lamps are used for parameter Set-up, including choice of

display indication during normal operation.

130BP045.1

0

[Status] indicates the status of the frequency converter and/or the motor. You can choose between 3 different readouts by pressing the [Status] key:

5 line readouts, 4 line readouts or Smart Logic Control.

Use [Status] for selecting the mode of display or for changing back to Display mode from either the Quick Menu mode, the Main Menu mode or Alarm

mode. Also use the [Status] key to toggle single or double read-out mode.

[Quick Menu] allows quick access to different Quick Menus such as:

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- My Personal Menu

- Quick Set-up

- Changes Made

- Loggings

Use [Quick Menu] for programming the parameters belonging to the Quick Menu. It is possible to switch directly between Quick Menu mode and Main

Menu mode.

[Main Menu] is used for programming all parameters.

It is possible to switch directly between Main Menu mode and Quick Menu mode.

Parameter shortcut can be carried out by pressing down the [Main Menu] key for 3 seconds. The parameter shortcut allows direct access to any

parameter.

[Alarm Log] displays an Alarm list of the five latest alarms (numbered A1-A5). To obtain additional details about an alarm, use the arrow keys to

manoeuvre to the alarm number and press [OK]. You will now receive information about the condition of your frequency converter right before entering

the alarm mode.

[Back] takes you to the previous step or layer in the navigation structure.

[Cancel] annuls your last change or command as long as the display has not been changed.

[Info] supplies information about a command, parameter, or function in

any display window. [Info] provides detailed information whenever help

is needed.

Exit info mode by pressing either [Info], [Back], or [Cancel].

Navigation Keys

The four navigation arrows are used to navigate between the different choices available in [Quick Menu], [Main Menu] and [Alarm Log]. Use the

keys to move the cursor.

[OK] is used for choosing a parameter marked by the cursor and for enabling the change of a parameter.

Local Control Key for local control are found at the bottom of the con-

trol panel.

130BP046.1

0

[Hand On] enables control of the frequency converter via the LCP. [Hand on] also starts the motor, and it is now possible to enter the motor speed data

by means of the arrow keys. The key can be selected as Enable [1] or Disable [0] via par.

0-40 [Hand on] key on LCP.

External stop signals activated by means of control signals or a serial bus will override a “start” command via the LCP.

The following control signals will still be active when [Hand on] is activated:

• [Hand on] - [Off] - [Auto on]

• Reset

• Coasting stop inverse

•Reversing

• Set-up select bit 0- Set-up select bit 1

• Stop command from serial communication

•Quick stop

•DC brake

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[Off] stops the connected motor. The key can be selected as Enable [1] or Disable [0] via par.

0-41 [Off] key on LCP.

If no external stop function is

selected and the [Off] key is inactive the motor can be stopped by disconnecting the voltage.

[Auto On] enables the frequency converter to be controlled via the control terminals and/or serial communication. When a start signal is applied on the

control terminals and/or the bus, the frequency converter will start. The key can be selected as Enable [1] or Disable [0] via par.

0-42 [Auto on] key on

LCP.

NB!

An active HAND-OFF-AUTO signal via the digital inputs has higher priority than the control keys [Hand on] – [Auto on].

[Reset] is used for resetting the frequency converter after an alarm (trip). It can be selected as

Enable

[1] or

Disable

[0] via par. 0-43

Reset Keys on

LCP

.

The parameter shortcut can be carried out by holding down the [Main Menu] key for 3 seconds. The parameter shortcut allows direct access to any

parameter.

2.1.3. Quick Transfer of Parameter Settings between Multiple Frequency Converters

Once the set-up of a frequency converter is complete, we recommend

that you store the data in the LCP or on a PC via MCT 10 Set-up Software

Tool.

Data storage in LCP:

1. Go to par. 0-50

LCP Copy

2. Press the [OK] key

3. Select “All to LCP”

4. Press the [OK] key

All parameter settings are now stored in the LCP indicated by the progress bar. When 100% is reached, press [OK].

NB!

Stop the motor before performing this operation.

You can now connect the LCP to another frequency converter and copy the parameter settings to this frequency converter as well.

Data transfer from LCP to frequency converter:

1. Go to par. 0-50

LCP Copy

2. Press the [OK] key

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3. Select “All from LCP”

4. Press the [OK] key

The parameter settings stored in the LCP are now transferred to the frequency converter indicated by the progress bar. When 100% is reached, press

[OK].

NB!

Stop the motor before performing this operation.

2.1.4. Display Mode

In normal operation, up to 5 different operating variables can be indicated continuously in the middle section: 1.1, 1.2, and 1.3 as well as 2 and 3.

2.1.5. Display Mode - Selection of Read-Outs

It is possible to toggle between three status read-out screens by pressing

the [Status] key.

Operating variables with different formatting are shown in each status

screen - see below.

The table shows the measurements you can link to each of the operating

variables. Define the links via par. 0-20, 0-21, 0-22, 0-23, and 0-24.

Each readout parameter selected in par. 0-20 to par. 0-24 has its own

scale and digits after a possible decimal point. By larger numeric value of

a parameter fewer digits are displayed after the decimal point.

Ex.: Current readout

5.25 A; 15.2 A 105 A.

Operating variable:

Unit:

Par. 16-00 Control Word hex

Par. 16-01 Reference [unit]

Par. 16-02 Reference %

Par. 16-03 Status Word hex

Par. 16-05 Main Actual Value %

Par. 16-10 Power [kW]

Par. 16-11 Power [HP]

Par. 16-12 Motor Voltage [V]

Par. 16-13 Frequency [Hz]

Par. 16-14 Motor Current [A]

Par. 16-16 Torque Nm

Par. 16-17 Speed [RPM]

Par. 16-18 Motor Thermal %

Par. 16-20 Motor Angle

Par. 16-30 DC Link Voltage V

Par. 16-32 Brake Energy / s kW

Par. 16-33 Brake Energy / 2 min kW

Par. 16-34 Heatsink Temp. C

Par. 16-35 Inverter Thermal %

Par. 16-36 Inv. Nom. Current A

Par. 16-37 Inv. Max. Current A

Par. 16-38 SL Control State

Par. 16-39 Control Card Temp. C

Par. 16-40 Logging Buffer Full

Par. 16-50 External Reference

Par. 16-51 Pulse Reference

Par. 16-52 Feedback [Unit]

Par. 16-53 Digi Pot Reference

Par. 16-60 Digital Input bin

Par. 16-61 Terminal 53 Switch Setting V

Par. 16-62 Analog Input 53

Par. 16-63 Terminal 54 Switch Setting V

Par. 16-64 Analog Input 54

Par. 16-65 Analog Output 42 [mA]

Par. 16-66 Digital Output [bin]

Par. 16-67 Freq. Input #29 [Hz]

Par. 16-68 Freq. Input #33 [Hz]

Par. 16-69 Pulse Output #27 [Hz]

Par. 16-70 Pulse Output #29 [Hz]

Par. 16-71 Relay Output

Par. 16-72 Counter A

Par. 16-73 Counter B

Par. 16-80 Fieldbus CTW hex

Par. 16-82 Fieldbus REF 1 hex

Par. 16-84 Comm. Option STW hex

Par. 16-85 FC Port CTW 1 hex

Par. 16-86 FC Port REF 1 hex

Par. 16-90 Alarm Word

Par. 16-92 Warning Word

Par. 16-94 Ext. Status Word

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Status screen I:

This read-out state is standard after start-up or initialization.

Use [INFO] to obtain information about the measurement links to the

displayed operating variables (1.1, 1.2, 1.3, 2 and 3).

See the operating variables shown in the screen in this illustration.

130BP041.10

1.1

1.3

2

1.2

3

Status screen II:

See the operating variables (1.1, 1.2, 1.3 and 2) shown in the screen in

this illustration.

In the example, Speed, Motor current, Motor power and Frequency are

selected as variables in the first and second.

130BP062.10

2

1.2

1.3

1.1

Status screen III:

This state displays the event and action of the Smart Logic Control. For

further information, see section

Smart Logic Control

.

1

30BP063.10

2.1.6. Parameter Set-Up

The frequency converter can be used for practically all assignments, which is why the number of parameters is quite large. The frequency converter offers

a choice between two programming modes - a Main Menu and a Quick Menu mode.

The former provides access to all parameters. The latter takes the user through a few parameters making it possible to start operating the frequency

converter.

Regardless of the mode of programming, you can change a parameter both in the Main Menu mode and in the Quick Menu mode.

2.1.7. Quick Menu Key Functions

Pressing [Quick Menus] The list indicates the different areas contained in

the Quick menu.

Select

My Personal Menu

to display the chosen personal parameters.

These parameters are selected in par. 0-25

Personal Menu

. Up to 20 dif-

ferent parameters can be added in this menu.

2. How to Programme FC 300 Programming Guide

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is a registered Danfoss trademark

2

Select

Quick setup

to go through a limited amount of parameters to get the motor running almost optimally. The default setting for the other parameters

considers the desired control functions and the configuration of signal inputs/outputs (control terminals).

The selection of parameter is effected by means of the arrow keys. The parameters in the following table are accessible.

Parameter

Designation Setting

0-01 Language

1-20 Motor Power [kW]

1-22 Motor Voltage [V]

1-23 Motor Frequency [Hz]

1-24 Motor Current [A]

1-25 Motor Nominal Speed [rpm]

5-12 Terminal 27 Digital Input [0] No function*

1-29 Automatic Motor Adaptation (AMA) [1] Enable complete AMA

3-02 Min Reference [rpm]

3-03 Max Reference [rpm]

3-41 Ramp 1 Ramp-up Time [sec]

3-42 Ramp 1 Ramp-down Time [sec]

3-13 Reference Site

* If terminal 27 is set to “no function”, no connection to +24 V on terminal 27 is necessary.

Select

Changes made

to get information about:

•

the last 10 changes. Use the [

▲

] [

▼

] navigation keys to scroll

between the last 10 changed parameters.

• the changes made since default setting.

Select

Loggings

to get information about the display line read-outs. The

information is shown as graphs.

Only display parameters selected in par. 0-20 and par. 0-24 can be

viewed. It is possible to store up to 120 samples in the memory for later

reference.

FC 300 Programming Guide 2. How to Programme

MG.33.M4.02 - VLT

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is a registered Danfoss trademark

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2.1.8. Initial Commissioning

The easiest way of carrying out the initial commissioning is by using the Quick Menu button and follow the quick set-up procedure using LCP 102 (read

table from left to right). The example applies to open loop applications:

Press

Q2 Quick Menu

0-01 Language Set language

1-20 Motor power Set Motor nameplate power

1-22 Motor voltage

Set Nameplate voltage

1-23 Motor frequency Set Nameplate frequency

1-24 Motor current

Set Nameplate current

1-25 Motor nominal speed Set Nameplate speed in RPM

5-12 Terminal 27 Digital Input

If terminal default is

Coast inverse

it is possible to change this

setting to

No function

. No connection to terminal 27 is then

needed for running AMA

1-29 Automatic Motor Adaptation

Set desired AMA function. Enable complete AMA is recommen-

ded

3-02 Minimum reference

Set the minimum speed of the motor shaft

3-03 Maximum reference Set the maximum speed of the motor shaft

3-41 Ramp1 up time

Set the ramping up time with reference to synchronous motor

speed, n

s

3-42 Ramp1 down time

Set the ramping down time with reference to synchronous mo-

tor speed, n

s

3-13 Reference site

Set the site from where the reference must work

2. How to Programme FC 300 Programming Guide

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Danfoss VLT AutomationDrive FC 301 Programming Guide

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